/*
 * Copyright (C) 2005 - 2013 MaNGOS <http://www.getmangos.com/>
 *
 * Copyright (C) 2008 - 2013 Trinity <http://www.trinitycore.org/>
 *
 * Copyright (C) 2010 - 2013 ProjectSkyfire <http://www.projectskyfire.org/>
 *
 * Copyright (C) 2011 - 2013 ArkCORE <http://www.arkania.net/>
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation; either version 2 of the License, or
 * (at your option) any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software
 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
 */

//==========================================
// Matt Pietrek
// MSDN Magazine, 2002
// FILE: WheatyExceptionReport.CPP
//==========================================
#if PLATFORM == PLATFORM_WINDOWS
#define WIN32_LEAN_AND_MEAN
#pragma warning(disable:4996)
#pragma warning(disable:4312)
#pragma warning(disable:4311)
#include <windows.h>
#include <tlhelp32.h>
#include <stdio.h>
#include <tchar.h>
#define _NO_CVCONST_H
#include <dbghelp.h>

#include "WheatyExceptionReport.h"

#include "Common.h"
#include "SystemConfig.h"
#include "revision.h"

#define CrashFolder _T("Crashes")
#pragma comment(linker, "/DEFAULTLIB:dbghelp.lib")

inline LPTSTR ErrorMessage(DWORD dw) {
    LPVOID lpMsgBuf;
    FormatMessage(FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM,
            NULL, dw, MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT),
            (LPTSTR) & lpMsgBuf, 0, NULL);
    return (LPTSTR) lpMsgBuf;
}

//============================== Global Variables =============================

//
// Declare the static variables of the WheatyExceptionReport class
//
TCHAR WheatyExceptionReport::m_szLogFileName[MAX_PATH];
TCHAR WheatyExceptionReport::m_szDumpFileName[MAX_PATH];
LPTOP_LEVEL_EXCEPTION_FILTER WheatyExceptionReport::m_previousFilter;
HANDLE WheatyExceptionReport::m_hReportFile;
HANDLE WheatyExceptionReport::m_hDumpFile;
HANDLE WheatyExceptionReport::m_hProcess;

// Declare global instance of class
WheatyExceptionReport g_WheatyExceptionReport;

//============================== Class Methods =============================

WheatyExceptionReport::WheatyExceptionReport() // Constructor
{
    // Install the unhandled exception filter function
    m_previousFilter = SetUnhandledExceptionFilter(
            WheatyUnhandledExceptionFilter);
    m_hProcess = GetCurrentProcess();
}

//============
// Destructor
//============
WheatyExceptionReport::~WheatyExceptionReport() {
    if (m_previousFilter)
        SetUnhandledExceptionFilter(m_previousFilter);
}

//===========================================================
// Entry point where control comes on an unhandled exception
//===========================================================
LONG WINAPI WheatyExceptionReport::WheatyUnhandledExceptionFilter(
        PEXCEPTION_POINTERS pExceptionInfo) {
    TCHAR module_folder_name[MAX_PATH];
    GetModuleFileName(0, module_folder_name, MAX_PATH);
    TCHAR* pos = _tcsrchr(module_folder_name, '\\');
    if (!pos)
        return 0;
    pos[0] = '\0';
    ++pos;

    TCHAR crash_folder_path[MAX_PATH];
    sprintf(crash_folder_path, "%s\\%s", module_folder_name, CrashFolder);
    if (!CreateDirectory(crash_folder_path, NULL)) {
        if (GetLastError() != ERROR_ALREADY_EXISTS)
            return 0;
    }

    SYSTEMTIME systime;
    GetLocalTime(&systime);
    sprintf(m_szDumpFileName, "%s\\%s_%s_[%u-%u_%u-%u-%u].dmp",
            crash_folder_path, _HASH, pos, systime.wDay, systime.wMonth,
            systime.wHour, systime.wMinute, systime.wSecond);

    sprintf(m_szLogFileName, "%s\\%s_%s_[%u-%u_%u-%u-%u].txt",
            crash_folder_path, _HASH, pos, systime.wDay, systime.wMonth,
            systime.wHour, systime.wMinute, systime.wSecond);

    m_hDumpFile = CreateFile(m_szDumpFileName, GENERIC_WRITE, 0, 0, OPEN_ALWAYS,
            FILE_FLAG_WRITE_THROUGH, 0);

    m_hReportFile = CreateFile(m_szLogFileName, GENERIC_WRITE, 0, 0,
            OPEN_ALWAYS, FILE_FLAG_WRITE_THROUGH, 0);

    if (m_hDumpFile) {
        MINIDUMP_EXCEPTION_INFORMATION info;
        info.ClientPointers = FALSE;
        info.ExceptionPointers = pExceptionInfo;
        info.ThreadId = GetCurrentThreadId();

        MiniDumpWriteDump(GetCurrentProcess(), GetCurrentProcessId(),
                m_hDumpFile, MiniDumpWithIndirectlyReferencedMemory, &info, 0,
                0);

        CloseHandle(m_hDumpFile);
    }

    if (m_hReportFile) {
        SetFilePointer(m_hReportFile, 0, 0, FILE_END);

        GenerateExceptionReport(pExceptionInfo);

        CloseHandle(m_hReportFile);
        m_hReportFile = 0;
    }

    if (m_previousFilter)
        return m_previousFilter(pExceptionInfo);
    else
        return EXCEPTION_EXECUTE_HANDLER/*EXCEPTION_CONTINUE_SEARCH*/;
}

BOOL WheatyExceptionReport::_GetProcessorName(TCHAR* sProcessorName,
        DWORD maxcount) {
    if (!sProcessorName)
        return FALSE;

    HKEY hKey;
    LONG lRet;
    lRet = ::RegOpenKeyEx(HKEY_LOCAL_MACHINE,
            _T("HARDWARE\\DESCRIPTION\\System\\CentralProcessor\\0"), 0,
            KEY_QUERY_VALUE, &hKey);
    if (lRet != ERROR_SUCCESS)
        return FALSE;
    TCHAR szTmp[2048];
    DWORD cntBytes = sizeof(szTmp);
    lRet = ::RegQueryValueEx(hKey, _T("ProcessorNameString"), NULL, NULL,
            (LPBYTE) szTmp, &cntBytes);
    if (lRet != ERROR_SUCCESS)
        return FALSE;
    ::RegCloseKey(hKey);
    sProcessorName[0] = '\0';
    // Skip spaces
    TCHAR* psz = szTmp;
    while (iswspace(*psz))
        ++psz;
    _tcsncpy(sProcessorName, psz, maxcount);
    return TRUE;
}

BOOL WheatyExceptionReport::_GetWindowsVersion(TCHAR* szVersion, DWORD cntMax) {
    // Try calling GetVersionEx using the OSVERSIONINFOEX structure.
    // If that fails, try using the OSVERSIONINFO structure.
    OSVERSIONINFOEX osvi = { 0 };
    osvi.dwOSVersionInfoSize = sizeof(OSVERSIONINFOEX);
    BOOL bOsVersionInfoEx;
    bOsVersionInfoEx = ::GetVersionEx((LPOSVERSIONINFO)(&osvi));
    if (!bOsVersionInfoEx) {
        osvi.dwOSVersionInfoSize = sizeof(OSVERSIONINFO);
        if (!::GetVersionEx((OSVERSIONINFO*) &osvi))
            return FALSE;
    }
    *szVersion = _T('\0');
    TCHAR wszTmp[128];
    switch (osvi.dwPlatformId) {
    // Windows NT product family.
    case VER_PLATFORM_WIN32_NT:
        // Test for the specific product family.
        if (osvi.dwMajorVersion == 6)
            _tcsncat(szVersion, _T("Windows Vista or Windows Server 2008 "),
                    cntMax);
        if (osvi.dwMajorVersion == 5 && osvi.dwMinorVersion == 2)
            _tcsncat(szVersion, _T("Microsoft Windows Server 2003 "), cntMax);
        if (osvi.dwMajorVersion == 5 && osvi.dwMinorVersion == 1)
            _tcsncat(szVersion, _T("Microsoft Windows XP "), cntMax);
        if (osvi.dwMajorVersion == 5 && osvi.dwMinorVersion == 0)
            _tcsncat(szVersion, _T("Microsoft Windows 2000 "), cntMax);
        if (osvi.dwMajorVersion <= 4)
            _tcsncat(szVersion, _T("Microsoft Windows NT "), cntMax);

        // Test for specific product on Windows NT 4.0 SP6 and later.
        if (bOsVersionInfoEx) {
            // Test for the workstation type.
#if WINVER < 0x0500
            if (osvi.wReserved[1] == VER_NT_WORKSTATION)
#else
                    if (osvi.wProductType == VER_NT_WORKSTATION)
#endif                                          // WINVER < 0x0500
                    {
                if (osvi.dwMajorVersion == 4)
                    _tcsncat(szVersion, _T("Workstation 4.0 "), cntMax);
#if WINVER < 0x0500
                else if (osvi.wReserved[0] & VER_SUITE_PERSONAL)
#else
                    else if (osvi.wSuiteMask & VER_SUITE_PERSONAL)
#endif                                      // WINVER < 0x0500
                    _tcsncat(szVersion, _T("Home Edition "), cntMax);
#if WINVER < 0x0500
                else if (osvi.wReserved[0] & VER_SUITE_EMBEDDEDNT)
#else
                    else if (osvi.wSuiteMask & VER_SUITE_EMBEDDEDNT)
#endif                                      // WINVER < 0x0500
                    _tcsncat(szVersion, _T("Embedded "), cntMax);
                else
                    _tcsncat(szVersion, _T("Professional "), cntMax);
            }
            // Test for the server type.
#if WINVER < 0x0500
            else if (osvi.wReserved[1] == VER_NT_SERVER)
#else
                    else if (osvi.wProductType == VER_NT_SERVER)
#endif                                          // WINVER < 0x0500
                    {
                if (osvi.dwMajorVersion == 5 && osvi.dwMinorVersion == 2) {
#if WINVER < 0x0500
                    if (osvi.wReserved[0] & VER_SUITE_DATACENTER)
#else
                        if (osvi.wSuiteMask & VER_SUITE_DATACENTER)
#endif                                  // WINVER < 0x0500
                        _tcsncat(szVersion, _T("Datacenter Edition "), cntMax);
#if WINVER < 0x0500
                    else if (osvi.wReserved[0] & VER_SUITE_ENTERPRISE)
#else
                        else if (osvi.wSuiteMask & VER_SUITE_ENTERPRISE)
#endif                                  // WINVER < 0x0500
                        _tcsncat(szVersion, _T("Enterprise Edition "), cntMax);
#if WINVER < 0x0500
                    else if (osvi.wReserved[0] == VER_SUITE_BLADE)
#else
                        else if (osvi.wSuiteMask == VER_SUITE_BLADE)
#endif                                  // WINVER < 0x0500
                        _tcsncat(szVersion, _T("Web Edition "), cntMax);
                    else
                        _tcsncat(szVersion, _T("Standard Edition "), cntMax);
                } else if (osvi.dwMajorVersion == 5
                        && osvi.dwMinorVersion == 0) {
#if WINVER < 0x0500
                    if (osvi.wReserved[0] & VER_SUITE_DATACENTER)
#else
                        if (osvi.wSuiteMask & VER_SUITE_DATACENTER)
#endif                                  // WINVER < 0x0500
                        _tcsncat(szVersion, _T("Datacenter Server "), cntMax);
#if WINVER < 0x0500
                    else if (osvi.wReserved[0] & VER_SUITE_ENTERPRISE)
#else
                        else if (osvi.wSuiteMask & VER_SUITE_ENTERPRISE)
#endif                                  // WINVER < 0x0500
                        _tcsncat(szVersion, _T("Advanced Server "), cntMax);
                    else
                        _tcsncat(szVersion, _T("Server "), cntMax);
                } else // Windows NT 4.0
                {
#if WINVER < 0x0500
                    if (osvi.wReserved[0] & VER_SUITE_ENTERPRISE)
#else
                        if (osvi.wSuiteMask & VER_SUITE_ENTERPRISE)
#endif                                  // WINVER < 0x0500
                        _tcsncat(szVersion,
                                _T("Server 4.0, Enterprise Edition "), cntMax);
                    else
                        _tcsncat(szVersion, _T("Server 4.0 "), cntMax);
                }
            }
        }
        // Display service pack (if any) and build number.
        if (osvi.dwMajorVersion == 4
                && _tcsicmp(osvi.szCSDVersion, _T("Service Pack 6")) == 0) {
            HKEY hKey;
            LONG lRet;

            // Test for SP6 versus SP6a.
            lRet =
                    ::RegOpenKeyEx(
                            HKEY_LOCAL_MACHINE,
                            _T(
                                    "SOFTWARE\\Microsoft\\Windows NT\\CurrentVersion\\Hotfix\\Q246009"),
                            0, KEY_QUERY_VALUE, &hKey);
            if (lRet == ERROR_SUCCESS) {
                _stprintf(wszTmp,
                        _T("Service Pack 6a (Version %d.%d, Build %d)"),
                        osvi.dwMajorVersion, osvi.dwMinorVersion,
                        osvi.dwBuildNumber & 0xFFFF);
                _tcsncat(szVersion, wszTmp, cntMax);
            } else // Windows NT 4.0 prior to SP6a
            {
                _stprintf(wszTmp, _T("%s (Version %d.%d, Build %d)"),
                        osvi.szCSDVersion, osvi.dwMajorVersion,
                        osvi.dwMinorVersion, osvi.dwBuildNumber & 0xFFFF);
                _tcsncat(szVersion, wszTmp, cntMax);
            }
            ::RegCloseKey(hKey);
        } else // Windows NT 3.51 and earlier or Windows 2000 and later
        {
            if (!_tcslen(osvi.szCSDVersion))
                _stprintf(wszTmp, _T("(Version %d.%d, Build %d)"),
                        osvi.dwMajorVersion, osvi.dwMinorVersion,
                        osvi.dwBuildNumber & 0xFFFF);
            else
                _stprintf(wszTmp, _T("%s (Version %d.%d, Build %d)"),
                        osvi.szCSDVersion, osvi.dwMajorVersion,
                        osvi.dwMinorVersion, osvi.dwBuildNumber & 0xFFFF);
            _tcsncat(szVersion, wszTmp, cntMax);
        }
        break;
    default:
        _stprintf(wszTmp, _T("%s (Version %d.%d, Build %d)"), osvi.szCSDVersion,
                osvi.dwMajorVersion, osvi.dwMinorVersion,
                osvi.dwBuildNumber & 0xFFFF);
        _tcsncat(szVersion, wszTmp, cntMax);
        break;
    }

    return TRUE;
}

void WheatyExceptionReport::PrintSystemInfo() {
    SYSTEM_INFO SystemInfo;
    ::GetSystemInfo(&SystemInfo);

    MEMORYSTATUS MemoryStatus;
    MemoryStatus.dwLength = sizeof(MEMORYSTATUS);
    ::GlobalMemoryStatus(&MemoryStatus);
    TCHAR sString[1024];
    _tprintf(_T("//=====================================================\r\n"));
    if (_GetProcessorName(sString, countof(sString)))
        _tprintf(
                _T(
                        "*** Hardware ***\r\nProcessor: %s\r\nNumber Of Processors: %d\r\nPhysical Memory: %d KB (Available: %d KB)\r\nCommit Charge Limit: %d KB\r\n"),
                sString, SystemInfo.dwNumberOfProcessors,
                MemoryStatus.dwTotalPhys / 0x400,
                MemoryStatus.dwAvailPhys / 0x400,
                MemoryStatus.dwTotalPageFile / 0x400);
    else
        _tprintf(
                _T(
                        "*** Hardware ***\r\nProcessor: <unknown>\r\nNumber Of Processors: %d\r\nPhysical Memory: %d KB (Available: %d KB)\r\nCommit Charge Limit: %d KB\r\n"),
                SystemInfo.dwNumberOfProcessors,
                MemoryStatus.dwTotalPhys / 0x400,
                MemoryStatus.dwAvailPhys / 0x400,
                MemoryStatus.dwTotalPageFile / 0x400);

    if (_GetWindowsVersion(sString, countof(sString)))
        _tprintf(_T("\r\n*** Operation System ***\r\n%s\r\n"), sString);
    else
        _tprintf(_T("\r\n*** Operation System:\r\n<unknown>\r\n"));
}

//===========================================================================
void WheatyExceptionReport::printTracesForAllThreads() {
    HANDLE hThreadSnap = INVALID_HANDLE_VALUE;
    THREADENTRY32 te32;

    DWORD dwOwnerPID = GetCurrentProcessId();
    m_hProcess = GetCurrentProcess();
    // Take a snapshot of all running threads
    hThreadSnap = CreateToolhelp32Snapshot(TH32CS_SNAPTHREAD, 0);
    if (hThreadSnap == INVALID_HANDLE_VALUE)
        return;

    // Fill in the size of the structure before using it.
    te32.dwSize = sizeof(THREADENTRY32);

    // Retrieve information about the first thread,
    // and exit if unsuccessful
    if (!Thread32First(hThreadSnap, &te32)) {
        CloseHandle(hThreadSnap); // Must clean up the
                                  //   snapshot object!
        return;
    }

    // Now walk the thread list of the system,
    // and display information about each thread
    // associated with the specified process
    do {
        if (te32.th32OwnerProcessID == dwOwnerPID) {
            CONTEXT context;
            context.ContextFlags = 0xffffffff;
            HANDLE threadHandle = OpenThread(
                    THREAD_GET_CONTEXT | THREAD_QUERY_INFORMATION, false,
                    te32.th32ThreadID);
            if (threadHandle && GetThreadContext(threadHandle, &context)) {
                WriteStackDetails(&context, false, threadHandle);
            }
            CloseHandle(threadHandle);
        }
    } while (Thread32Next(hThreadSnap, &te32));

//  Don't forget to clean up the snapshot object.
    CloseHandle(hThreadSnap);
}

//===========================================================================
// Open the report file, and write the desired information to it.  Called by
// WheatyUnhandledExceptionFilter
//===========================================================================
void WheatyExceptionReport::GenerateExceptionReport(
        PEXCEPTION_POINTERS pExceptionInfo) {
    SYSTEMTIME systime;
    GetLocalTime(&systime);

    // Start out with a banner
    _tprintf(_T("Revision: %s\r\n"), _CLIENT_BUILD_REVISION, _FULLVERSION);
    _tprintf(_T("Date %u:%u:%u. Time %u:%u \r\n"), systime.wDay, systime.wMonth, systime.wYear, systime.wHour, systime.wMinute);
    PEXCEPTION_RECORD pExceptionRecord = pExceptionInfo->ExceptionRecord;

    PrintSystemInfo();
    // First print information about the type of fault
    _tprintf(
            _T(
                    "\r\n//=====================================================\r\n"));
    _tprintf(_T("Exception code: %08X %s\r\n"), pExceptionRecord->ExceptionCode,
            GetExceptionString(pExceptionRecord->ExceptionCode));

    // Now print information about where the fault occured
    TCHAR szFaultingModule[MAX_PATH];
    DWORD section;
    DWORD_PTR offset;
    GetLogicalAddress(pExceptionRecord->ExceptionAddress, szFaultingModule,
            sizeof(szFaultingModule), section, offset);

#ifdef _M_IX86
    _tprintf(_T("Fault address:  %08X %02X:%08X %s\r\n"),
            pExceptionRecord->ExceptionAddress,
            section, offset, szFaultingModule);
#endif
#ifdef _M_X64
    _tprintf(_T("Fault address:  %016I64X %02X:%016I64X %s\r\n"),
            pExceptionRecord->ExceptionAddress,
            section, offset, szFaultingModule);
#endif

    PCONTEXT pCtx = pExceptionInfo->ContextRecord;

    // Show the registers
#ifdef _M_IX86                                          // X86 Only!
    _tprintf(_T("\r\nRegisters:\r\n"));

    _tprintf(_T("EAX:%08X\r\nEBX:%08X\r\nECX:%08X\r\nEDX:%08X\r\nESI:%08X\r\nEDI:%08X\r\n")
            , pCtx->Eax, pCtx->Ebx, pCtx->Ecx, pCtx->Edx,
            pCtx->Esi, pCtx->Edi);

    _tprintf(_T("CS:EIP:%04X:%08X\r\n"), pCtx->SegCs, pCtx->Eip);
    _tprintf(_T("SS:ESP:%04X:%08X  EBP:%08X\r\n"),
            pCtx->SegSs, pCtx->Esp, pCtx->Ebp);
    _tprintf(_T("DS:%04X  ES:%04X  FS:%04X  GS:%04X\r\n"),
            pCtx->SegDs, pCtx->SegEs, pCtx->SegFs, pCtx->SegGs);
    _tprintf(_T("Flags:%08X\r\n"), pCtx->EFlags);
#endif

#ifdef _M_X64
    _tprintf(_T("\r\nRegisters:\r\n"));
    _tprintf(_T("RAX:%016I64X\r\nRBX:%016I64X\r\nRCX:%016I64X\r\nRDX:%016I64X\r\nRSI:%016I64X\r\nRDI:%016I64X\r\n")
            _T("R8: %016I64X\r\nR9: %016I64X\r\nR10:%016I64X\r\nR11:%016I64X\r\nR12:%016I64X\r\nR13:%016I64X\r\nR14:%016I64X\r\nR15:%016I64X\r\n")
            , pCtx->Rax, pCtx->Rbx, pCtx->Rcx, pCtx->Rdx,
            pCtx->Rsi, pCtx->Rdi , pCtx->R9, pCtx->R10, pCtx->R11, pCtx->R12, pCtx->R13, pCtx->R14, pCtx->R15);
    _tprintf(_T("CS:RIP:%04X:%016I64X\r\n"), pCtx->SegCs, pCtx->Rip);
    _tprintf(_T("SS:RSP:%04X:%016X  RBP:%08X\r\n"),
            pCtx->SegSs, pCtx->Rsp, pCtx->Rbp);
    _tprintf(_T("DS:%04X  ES:%04X  FS:%04X  GS:%04X\r\n"),
            pCtx->SegDs, pCtx->SegEs, pCtx->SegFs, pCtx->SegGs);
    _tprintf(_T("Flags:%08X\r\n"), pCtx->EFlags);
#endif

    SymSetOptions(SYMOPT_DEFERRED_LOADS);

    // Initialize DbgHelp
    if (!SymInitialize(GetCurrentProcess(), 0, TRUE)) {
        _tprintf(
                _T(
                        "\n\rCRITICAL ERROR.\n\r Couldn't initialize the symbol handler for process.\n\rError [%s].\n\r\n\r"),
                ErrorMessage(GetLastError()));
    }

    CONTEXT trashableContext = *pCtx;

    WriteStackDetails(&trashableContext, false, NULL);
    printTracesForAllThreads();

//    #ifdef _M_IX86                                          // X86 Only!

    _tprintf(_T("========================\r\n"));
    _tprintf(_T("Local Variables And Parameters\r\n"));

    trashableContext = *pCtx;
    WriteStackDetails(&trashableContext, true, NULL);

    _tprintf(_T("========================\r\n"));
    _tprintf(_T("Global Variables\r\n"));

    SymEnumSymbols(GetCurrentProcess(),
            (DWORD64) GetModuleHandle(szFaultingModule), 0,
            EnumerateSymbolsCallback, 0);
    //  #endif                                                  // X86 Only!

    SymCleanup(GetCurrentProcess());

    _tprintf(_T("\r\n"));
}

//======================================================================
// Given an exception code, returns a pointer to a static string with a
// description of the exception
//======================================================================
LPTSTR WheatyExceptionReport::GetExceptionString(DWORD dwCode) {
#define EXCEPTION(x) case EXCEPTION_##x: return _T(#x);

    switch (dwCode) {
    EXCEPTION(ACCESS_VIOLATION)
    EXCEPTION(DATATYPE_MISALIGNMENT)
    EXCEPTION(BREAKPOINT)
    EXCEPTION(SINGLE_STEP)
    EXCEPTION(ARRAY_BOUNDS_EXCEEDED)
    EXCEPTION(FLT_DENORMAL_OPERAND)
    EXCEPTION(FLT_DIVIDE_BY_ZERO)
    EXCEPTION(FLT_INEXACT_RESULT)
    EXCEPTION(FLT_INVALID_OPERATION)
    EXCEPTION(FLT_OVERFLOW)
    EXCEPTION(FLT_STACK_CHECK)
    EXCEPTION(FLT_UNDERFLOW)
    EXCEPTION(INT_DIVIDE_BY_ZERO)
    EXCEPTION(INT_OVERFLOW)
    EXCEPTION(PRIV_INSTRUCTION)
    EXCEPTION(IN_PAGE_ERROR)
    EXCEPTION(ILLEGAL_INSTRUCTION)
    EXCEPTION(NONCONTINUABLE_EXCEPTION)
    EXCEPTION(STACK_OVERFLOW)
    EXCEPTION(INVALID_DISPOSITION)
    EXCEPTION(GUARD_PAGE)
    EXCEPTION(INVALID_HANDLE)
    }

    // If not one of the "known" exceptions, try to get the string
    // from NTDLL.DLL's message table.

    static TCHAR szBuffer[512] = { 0 };

    FormatMessage(FORMAT_MESSAGE_IGNORE_INSERTS | FORMAT_MESSAGE_FROM_HMODULE,
            GetModuleHandle(_T("NTDLL.DLL")), dwCode, 0, szBuffer,
            sizeof(szBuffer), 0);

    return szBuffer;
}

//=============================================================================
// Given a linear address, locates the module, section, and offset containing
// that address.
//
// Note: the szModule paramater buffer is an output buffer of length specified
// by the len parameter (in characters!)
//=============================================================================
BOOL WheatyExceptionReport::GetLogicalAddress(PVOID addr, PTSTR szModule,
        DWORD len, DWORD& section, DWORD_PTR& offset) {
    MEMORY_BASIC_INFORMATION mbi;

    if (!VirtualQuery(addr, &mbi, sizeof(mbi)))
        return FALSE;

    DWORD_PTR hMod = (DWORD_PTR) mbi.AllocationBase;

    if (!GetModuleFileName((HMODULE) hMod, szModule, len))
        return FALSE;

    // Point to the DOS header in memory
    PIMAGE_DOS_HEADER pDosHdr = (PIMAGE_DOS_HEADER) hMod;

    // From the DOS header, find the NT (PE) header
    PIMAGE_NT_HEADERS pNtHdr = (PIMAGE_NT_HEADERS)(
            hMod + DWORD_PTR(pDosHdr->e_lfanew));

    PIMAGE_SECTION_HEADER pSection = IMAGE_FIRST_SECTION(pNtHdr);

    DWORD_PTR rva = (DWORD_PTR) addr - hMod; // RVA is offset from module load address

    // Iterate through the section table, looking for the one that encompasses
    // the linear address.
    for (unsigned i = 0; i < pNtHdr->FileHeader.NumberOfSections;
            i++, pSection++) {
        DWORD_PTR sectionStart = pSection->VirtualAddress;
        DWORD_PTR sectionEnd = sectionStart
                + DWORD_PTR(
                        std::max(pSection->SizeOfRawData,
                                pSection->Misc.VirtualSize));

        // Is the address in this section???
        if ((rva >= sectionStart) && (rva <= sectionEnd)) {
            // Yes, address is in the section.  Calculate section and offset,
            // and store in the "section" & "offset" params, which were
            // passed by reference.
            section = i + 1;
            offset = rva - sectionStart;
            return TRUE;
        }
    }

    return FALSE; // Should never get here!
}

// It contains SYMBOL_INFO structure plus additional
// space for the name of the symbol
struct CSymbolInfoPackage: public SYMBOL_INFO_PACKAGE {
    CSymbolInfoPackage() {
        si.SizeOfStruct = sizeof(SYMBOL_INFO);
        si.MaxNameLen = sizeof(name);
    }
};

//============================================================
// Walks the stack, and writes the results to the report file
//============================================================
void WheatyExceptionReport::WriteStackDetails(PCONTEXT pContext,
        bool bWriteVariables, HANDLE pThreadHandle) // true if local/params should be output
        {
    _tprintf(_T("\r\nCall stack:\r\n"));

    _tprintf(_T("Address   Frame     Function      SourceFile\r\n"));

    DWORD dwMachineType = 0;
    // Could use SymSetOptions here to add the SYMOPT_DEFERRED_LOADS flag

    STACKFRAME64 sf;
    memset(&sf, 0, sizeof(sf));

#ifdef _M_IX86
    // Initialize the STACKFRAME structure for the first call.  This is only
    // necessary for Intel CPUs, and isn't mentioned in the documentation.
    sf.AddrPC.Offset = pContext->Eip;
    sf.AddrPC.Mode = AddrModeFlat;
    sf.AddrStack.Offset = pContext->Esp;
    sf.AddrStack.Mode = AddrModeFlat;
    sf.AddrFrame.Offset = pContext->Ebp;
    sf.AddrFrame.Mode = AddrModeFlat;

    dwMachineType = IMAGE_FILE_MACHINE_I386;
#endif

#ifdef _M_X64
    sf.AddrPC.Offset = pContext->Rip;
    sf.AddrPC.Mode = AddrModeFlat;
    sf.AddrStack.Offset = pContext->Rsp;
    sf.AddrStack.Mode = AddrModeFlat;
    sf.AddrFrame.Offset = pContext->Rbp;
    sf.AddrFrame.Mode = AddrModeFlat;
    dwMachineType = IMAGE_FILE_MACHINE_AMD64;
#endif

    while (1) {
        // Get the next stack frame
        if (!StackWalk64(dwMachineType, m_hProcess,
                pThreadHandle != NULL ? pThreadHandle : GetCurrentThread(), &sf,
                pContext, 0, SymFunctionTableAccess64, SymGetModuleBase64, 0))
            break;
        if (0 == sf.AddrFrame.Offset) // Basic sanity check to make sure
            break; // the frame is OK.  Bail if not.
#ifdef _M_IX86
            _tprintf(_T("%08X  %08X  "), sf.AddrPC.Offset, sf.AddrFrame.Offset);
#endif
#ifdef _M_X64
        _tprintf(_T("%016I64X  %016I64X  "), sf.AddrPC.Offset, sf.AddrFrame.Offset);
#endif

        DWORD64 symDisplacement = 0; // Displacement of the input address,
        // relative to the start of the symbol

        // Get the name of the function for this stack frame entry
        CSymbolInfoPackage sip;
        if (SymFromAddr(m_hProcess, // Process handle of the current process
                sf.AddrPC.Offset, // Symbol address
                &symDisplacement, // Address of the variable that will receive the displacement
                &sip.si)) // Address of the SYMBOL_INFO structure (inside "sip" object)
                {
            _tprintf(_T("%hs+%I64X"), sip.si.Name, symDisplacement);
        } else // No symbol found.  Print out the logical address instead.
        {
            TCHAR szModule[MAX_PATH] = _T("");
            DWORD section = 0;
            DWORD_PTR offset = 0;

            GetLogicalAddress((PVOID) sf.AddrPC.Offset, szModule,
                    sizeof(szModule), section, offset);
#ifdef _M_IX86
            _tprintf(_T("%04X:%08X %s"), section, offset, szModule);
#endif
#ifdef _M_X64
            _tprintf(_T("%04X:%016I64X %s"), section, offset, szModule);
#endif
        }

        // Get the source line for this stack frame entry
        IMAGEHLP_LINE64 lineInfo = { sizeof(IMAGEHLP_LINE) };
        DWORD dwLineDisplacement;
        if (SymGetLineFromAddr64(m_hProcess, sf.AddrPC.Offset,
                &dwLineDisplacement, &lineInfo)) {
            _tprintf(_T("  %s line %u"), lineInfo.FileName,
                    lineInfo.LineNumber);
        }

        _tprintf(_T("\r\n"));

        // Write out the variables, if desired
        if (bWriteVariables) {
            // Use SymSetContext to get just the locals/params for this frame
            IMAGEHLP_STACK_FRAME imagehlpStackFrame;
            imagehlpStackFrame.InstructionOffset = sf.AddrPC.Offset;
            SymSetContext(m_hProcess, &imagehlpStackFrame, 0);

            // Enumerate the locals/parameters
            SymEnumSymbols(m_hProcess, 0, 0, EnumerateSymbolsCallback, &sf);

            _tprintf(_T("\r\n"));
        }
    }
}

//////////////////////////////////////////////////////////////////////////////
// The function invoked by SymEnumSymbols
//////////////////////////////////////////////////////////////////////////////

BOOL CALLBACK
WheatyExceptionReport::EnumerateSymbolsCallback(PSYMBOL_INFO pSymInfo,
        ULONG SymbolSize, PVOID UserContext) {
    char szBuffer[2048];

    __try
    {
        if (FormatSymbolValue(pSymInfo, (STACKFRAME*)UserContext,
                        szBuffer, sizeof(szBuffer)))
        _tprintf(_T("\t%s\r\n"), szBuffer);
    }
    __except(1)
    {
        _tprintf(_T("punting on symbol %s\r\n"), pSymInfo->Name);
    }

    return TRUE;
}

//////////////////////////////////////////////////////////////////////////////
// Given a SYMBOL_INFO representing a particular variable, displays its
// contents.  If it's a user defined type, display the members and their
// values.
//////////////////////////////////////////////////////////////////////////////
bool WheatyExceptionReport::FormatSymbolValue(PSYMBOL_INFO pSym,
        STACKFRAME * sf, char * pszBuffer, unsigned cbBuffer) {
    char * pszCurrBuffer = pszBuffer;

    // Indicate if the variable is a local or parameter
    if (pSym->Flags & IMAGEHLP_SYMBOL_INFO_PARAMETER)
        pszCurrBuffer += sprintf(pszCurrBuffer, "Parameter ");
    else if (pSym->Flags & IMAGEHLP_SYMBOL_INFO_LOCAL)
        pszCurrBuffer += sprintf(pszCurrBuffer, "Local ");

    // If it's a function, don't do anything.
    if (pSym->Tag == 5) // SymTagFunction from CVCONST.H from the DIA SDK
        return false;

    DWORD_PTR pVariable = 0; // Will point to the variable's data in memory

    if (pSym->Flags & IMAGEHLP_SYMBOL_INFO_REGRELATIVE) {
        // if (pSym->Register == 8)   // EBP is the value 8 (in DBGHELP 5.1)
        { //  This may change!!!
            pVariable = sf->AddrFrame.Offset;
            pVariable += (DWORD_PTR) pSym->Address;
        }
        // else
        //  return false;
    } else if (pSym->Flags & IMAGEHLP_SYMBOL_INFO_REGISTER) {
        return false; // Don't try to report register variable
    } else {
        pVariable = (DWORD_PTR) pSym->Address; // It must be a global variable
    }

    // Determine if the variable is a user defined type (UDT).  IF so, bHandled
    // will return true.
    bool bHandled;
    pszCurrBuffer = DumpTypeIndex(pszCurrBuffer, pSym->ModBase, pSym->TypeIndex,
            0, pVariable, bHandled, pSym->Name);

    if (!bHandled) {
        // The symbol wasn't a UDT, so do basic, stupid formatting of the
        // variable.  Based on the size, we're assuming it's a char, WORD, or
        // DWORD.
        BasicType basicType = GetBasicType(pSym->TypeIndex, pSym->ModBase);
        pszCurrBuffer += sprintf(pszCurrBuffer, rgBaseType[basicType]);

        // Emit the variable name
        pszCurrBuffer += sprintf(pszCurrBuffer, "\'%s\'", pSym->Name);

        pszCurrBuffer = FormatOutputValue(pszCurrBuffer, basicType, pSym->Size,
                (PVOID) pVariable);
    }

    return true;
}

//////////////////////////////////////////////////////////////////////////////
// If it's a user defined type (UDT), recurse through its members until we're
// at fundamental types.  When he hit fundamental types, return
// bHandled = false, so that FormatSymbolValue() will format them.
//////////////////////////////////////////////////////////////////////////////
char * WheatyExceptionReport::DumpTypeIndex(char * pszCurrBuffer,
        DWORD64 modBase, DWORD dwTypeIndex, unsigned nestingLevel,
        DWORD_PTR offset, bool & bHandled, char* Name) {
    bHandled = false;

    // Get the name of the symbol.  This will either be a Type name (if a UDT),
    // or the structure member name.
    WCHAR * pwszTypeName;
    if (SymGetTypeInfo(m_hProcess, modBase, dwTypeIndex, TI_GET_SYMNAME,
            &pwszTypeName)) {
        pszCurrBuffer += sprintf(pszCurrBuffer, " %ls", pwszTypeName);
        LocalFree(pwszTypeName);
    }

    // Determine how many children this type has.
    DWORD dwChildrenCount = 0;
    SymGetTypeInfo(m_hProcess, modBase, dwTypeIndex, TI_GET_CHILDRENCOUNT,
            &dwChildrenCount);

    if (!dwChildrenCount) // If no children, we're done
        return pszCurrBuffer;

    // Prepare to get an array of "TypeIds", representing each of the children.
    // SymGetTypeInfo(TI_FINDCHILDREN) expects more memory than just a
    // TI_FINDCHILDREN_PARAMS struct has.  Use derivation to accomplish this.
    struct FINDCHILDREN: TI_FINDCHILDREN_PARAMS {
        ULONG MoreChildIds[1024];
        FINDCHILDREN() {
            Count = sizeof(MoreChildIds) / sizeof(MoreChildIds[0]);
        }
    } children;

    children.Count = dwChildrenCount;
    children.Start = 0;

    // Get the array of TypeIds, one for each child type
    if (!SymGetTypeInfo(m_hProcess, modBase, dwTypeIndex, TI_FINDCHILDREN,
            &children)) {
        return pszCurrBuffer;
    }

    // Append a line feed
    pszCurrBuffer += sprintf(pszCurrBuffer, "\r\n");

    // Iterate through each of the children
    for (unsigned i = 0; i < dwChildrenCount; i++) {
        // Add appropriate indentation level (since this routine is recursive)
        for (unsigned j = 0; j <= nestingLevel + 1; j++)
            pszCurrBuffer += sprintf(pszCurrBuffer, "\t");

        // Recurse for each of the child types
        bool bHandled2;
        BasicType basicType = GetBasicType(children.ChildId[i], modBase);
        pszCurrBuffer += sprintf(pszCurrBuffer, rgBaseType[basicType]);

        pszCurrBuffer = DumpTypeIndex(pszCurrBuffer, modBase,
                children.ChildId[i], nestingLevel + 1, offset, bHandled2,
                ""/*Name */);

        // If the child wasn't a UDT, format it appropriately
        if (!bHandled2) {
            // Get the offset of the child member, relative to its parent
            DWORD dwMemberOffset;
            SymGetTypeInfo(m_hProcess, modBase, children.ChildId[i],
                    TI_GET_OFFSET, &dwMemberOffset);

            // Get the real "TypeId" of the child.  We need this for the
            // SymGetTypeInfo(TI_GET_TYPEID) call below.
            DWORD typeId;
            SymGetTypeInfo(m_hProcess, modBase, children.ChildId[i],
                    TI_GET_TYPEID, &typeId);

            // Get the size of the child member
            ULONG64 length;
            SymGetTypeInfo(m_hProcess, modBase, typeId, TI_GET_LENGTH, &length);

            // Calculate the address of the member
            DWORD_PTR dwFinalOffset = offset + dwMemberOffset;

            //             BasicType basicType = GetBasicType(children.ChildId[i], modBase);
            //
            //          pszCurrBuffer += sprintf(pszCurrBuffer, rgBaseType[basicType]);
            //
            // Emit the variable name
            //          pszCurrBuffer += sprintf(pszCurrBuffer, "\'%s\'", Name);

            pszCurrBuffer = FormatOutputValue(pszCurrBuffer, basicType, length,
                    (PVOID) dwFinalOffset);

            pszCurrBuffer += sprintf(pszCurrBuffer, "\r\n");
        }
    }

    bHandled = true;
    return pszCurrBuffer;
}

char * WheatyExceptionReport::FormatOutputValue(char * pszCurrBuffer,
        BasicType basicType, DWORD64 length, PVOID pAddress) {
    // Format appropriately (assuming it's a 1, 2, or 4 bytes (!!!)
    if (length == 1)
        pszCurrBuffer += sprintf(pszCurrBuffer, " = %X", *(PBYTE) pAddress);
    else if (length == 2)
        pszCurrBuffer += sprintf(pszCurrBuffer, " = %X", *(PWORD) pAddress);
    else if (length == 4) {
        if (basicType == btFloat) {
            pszCurrBuffer += sprintf(pszCurrBuffer, " = %f",
                    *(PFLOAT) pAddress);
        } else if (basicType == btChar) {
            if (!IsBadStringPtr(*(PSTR*) pAddress, 32)) {
                pszCurrBuffer += sprintf(pszCurrBuffer, " = \"%.31s\"",
                        *(PDWORD) pAddress);
            } else
                pszCurrBuffer += sprintf(pszCurrBuffer, " = %X",
                        *(PDWORD) pAddress);
        } else
            pszCurrBuffer += sprintf(pszCurrBuffer, " = %X",
                    *(PDWORD) pAddress);
    } else if (length == 8) {
        if (basicType == btFloat) {
            pszCurrBuffer += sprintf(pszCurrBuffer, " = %lf",
                    *(double *) pAddress);
        } else
            pszCurrBuffer += sprintf(pszCurrBuffer, " = %I64X",
                    *(DWORD64*) pAddress);
    }

    return pszCurrBuffer;
}

BasicType WheatyExceptionReport::GetBasicType(DWORD typeIndex,
        DWORD64 modBase) {
    BasicType basicType;
    if (SymGetTypeInfo(m_hProcess, modBase, typeIndex, TI_GET_BASETYPE,
            &basicType)) {
        return basicType;
    }

    // Get the real "TypeId" of the child.  We need this for the
    // SymGetTypeInfo(TI_GET_TYPEID) call below.
    DWORD typeId;
    if (SymGetTypeInfo(m_hProcess, modBase, typeIndex, TI_GET_TYPEID,
            &typeId)) {
        if (SymGetTypeInfo(m_hProcess, modBase, typeId, TI_GET_BASETYPE,
                &basicType)) {
            return basicType;
        }
    }

    return btNoType;
}

//============================================================================
// Helper function that writes to the report file, and allows the user to use
// printf style formating
//============================================================================
int __cdecl WheatyExceptionReport::_tprintf(const TCHAR * format, ...)
{
    TCHAR szBuff[1024];
    int retValue;
    DWORD cbWritten;
    va_list argptr;

    va_start(argptr, format);
    retValue = vsprintf(szBuff, format, argptr);
    va_end(argptr);

    WriteFile(m_hReportFile, szBuff, retValue * sizeof(TCHAR), &cbWritten, 0);

    return retValue;
}

#endif  // _WIN32
